An integrally formed spacer may include an upper body having a flat surface. The upper body may include a fastening tongue perpendicular to the flat surface and dimensioned to fit into a first fastening hole in a wall of an electrical box. In addition, the integrally formed spacer may include a lower body with at least one leg having a notch to receive the wall of the electrical box via a second fastening hole in the wall. Further, the integrally formed spacer may include a neck portion having two ends in a lengthwise direction of the integrally formed spacer, one end of the neck portion connected to the upper body and another end connected to the lower body. When the at least one leg is in the second fastening hole and the lower body is held flat against an outside surface of the wall of the electrical box, the fastening tongue is in the first fastening hole and bending the integrally formed spacer to set the upper body perpendicular to the lower body fastens the integrally formed spacer to the wall of the electrical box.
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16. A device comprising:
an upper body including a fastening tongue;
a lower body having two legs at an edge away from the upper body, the lower body being connected to the upper body; and
a neck portion between the upper body and the lower body,
wherein when the two legs and the fastening tongue are in holes in one of top and bottom walls of a box, the lower body is placed flat against an outside surface of the one of the top and bottom walls of the box and raising the upper body to be perpendicular to the lower body attaches the device to the one of the top and bottom walls of the box.
13. A method comprising:
inserting two legs of a supporting spacer, having an upper body and a lower body, into corresponding first and second holes on a top wall of an electrical box;
while the two legs of the supporting spacer are inserted into the corresponding first and second holes, inserting a fastening tongue of the upper body of the supporting spacer into a third hole in the top wall;
placing the supporting spacer flat against an outside surface of the top wall; and
bending the supporting spacer to cause the fastening tongue to hug the top wall and affix the supporting spacer to the top wall.
1. An integrally formed spacer, comprising:
an upper body having a flat surface, including:
a fastening tongue perpendicular to the flat surface and dimensioned to fit into a first fastening hole in a bottom wall of an electrical box;
a lower body, including:
a first leg having a notch to receive the bottom wall of the electrical box via a second fastening hole in the bottom wall of the electrical box; and
a neck portion having two ends in a lengthwise direction of the integrally formed spacer, one end of the neck portion connected to the upper body and another end connected to the lower body,
wherein when the first leg is in the second fastening hole and the lower body is held flat against an outside surface of the bottom wall of the electrical box, the fastening tongue is in the first fastening hole and bending the integrally formed spacer to set the upper body perpendicular to the lower body fastens the integrally formed spacer to the bottom wall of the electrical box.
2. The integrally formed spacer of
a fin formed along an edge of the upper body, the edge running in the lengthwise direction.
3. The integrally formed spacer of
a molding to strengthen the lower body.
4. The integrally formed spacer of
a thigh connected perpendicularly to a bottom surface of the lower body, the bottom surface being in a same plane as the flat surface of the upper body; and
a lower leg connected substantially perpendicular to the thigh, the lower leg being substantially parallel to the bottom surface of the lower body and extending away from the neck portion.
5. The integrally formed spacer of
6. The integrally formed spacer of
7. The integrally formed spacer of
8. The integrally formed spacer of
a hole that covers part of the neck portion and the lower body, the hole being U-shaped around the fastening tongue, and
a cut that extends from a side edge of the integrally formed spacer to the neck portion,
wherein dimensions of the hole and the cut partly determine strength of the neck portion.
9. The integrally formed spacer of
10. The integrally formed spacer of
a tongue connecting portion that rigidly interconnects the fastening tongue to the upper body and moves the fastening tongue to hug an inside surface of the bottom wall of the electrical box when the upper body is perpendicular to the lower body due to the sufficient force.
11. The integrally formed spacer of
steel, galvanized steel, or aluminum.
12. The integrally formed spacer of
14. The method of
holding the lower body of the supporting spacer against the outside surface of the top wall;
applying a force on the upper body to bend the supporting spacer; and
bending the supporting spacer until the upper body is perpendicular to the lower body and the fastening tongue holds the top wall.
17. The device of
18. The device of
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This application claims priority under 35 U.S.C. §119 based on U.S. Provisional Patent Application No. 61/229,850 filed Jul. 30, 2009, the disclosure of which is incorporated by reference herein in its entirety.
Electrical outlet boxes are often mounted in walls prior to completion of the wall structure. For example, an electrical outlet box may be mounted on a wall stud prior to drywall installation.
The following detailed description refers to the accompanying drawings. The same reference numbers in different drawings may identify the same or similar elements.
As described herein, a supporting spacer may be attached conveniently to an electrical box without the use of any tools. The main function of the supporting spacer is to prevent the space between the electrical box and a wall from collapsing when a force is applied to the box, such as during receptacle or drywall installation.
Drywall elements 102-1 and 102-2 may provide partitioning of space for occupancy of a house or building. Wall studs 104-1 and 104-2 may include vertical members of a frame to which drywall elements 102-1 and 102-2 are affixed. Electrical outlet box 106 may provide an enclosure for electrical wiring. As shown, electrical outlet box 106 is attached to wall stud 104-2. Supporting spacer 108 may extend from electrical outlet box 106 to the inner surface of drywall element 102-2. Being substantially rigid, supporting spacer 108 may prevent electrical outlet box 106 from moving toward drywall element 102-2 when a force is (e.g., an accidental push) is applied to electrical outlet box 106 in the direction of arrow 110 in
To attach supporting spacer 108 to back panel 212, legs 208 and 210 of supporting spacer 108 may be inserted into fastening holes 214-2 and 214-3, respectively, as illustrated in
Once supporting spacer 108 is placed on back panel 212 as shown in
As shown in
Upper body 202 may include fins 304-1 and 304-2, center body 306, fastening tongue 206, and a tongue connecting portion 308. Fin 304-1 may be created from upper body 202 by folding or bending a left edge of upper body 202 along a line that runs lengthwise (e.g., on a line that runs parallel to a line A in
Fin 304-1 may prop or buttress upper body 202 against forces that are applied to surfaces of body 306, and may prevent upper body 202 from twisting or distorting. In addition, when supporting spacer 108 is attached to electrical outlet box 106 and a top edge of upper body 202 abuts wall 102-2 due to the force along arrow 110, the top edge of fin 304-1 (indicated by an elliptical area 304-3) may aid in stabilizing supporting spacer 108 by providing additional contact surface. Fin 304-2 may be formed similarly and may serve a similar function as fin 304-1.
Center body 306 may include a piece to which other components of upper body 202 are integrally connected. In some implementations, center body 306 may include a groove or an indentation (not shown) that may be formed via punching or molding. Such a feature may provide additional rigidity and strength to upper body 202.
Fastening tongue 206 may include a portion of upper body 202 that extends from tongue connecting portion 308 in a direction that is normal to the surface of center body 306 when supporting spacer 108 is not yet attached to electrical outlet box 106. In some implementations, fastening tongue 206 may be further bent toward center body 306 in the direction of an arrow 320 shown in
Tongue connecting portion 308 may extend from center body 306 and connect to fastening tongue 206. In one implementation, the length of tongue connecting portion 308 (e.g., LT in
Necks 302 may include a portion that connects upper body 202 and lower body 204. Part of necks 302 may be formed by removing slivers of material from the edges of supporting spacer 108, thus establishing recesses 310-1 and 310-2 between upper body 202 and lower body 204. To complete the formation of necks 302, additional material may be cut away from between necks 302. The length of necks 302 (e.g., WN−WO in
Lower body 204 may include belly 312, a molded portion 314, a U-shaped hole 316, and legs 208 and 210. Belly 312 may include a piece to which other components of lower body 204 and necks 302 are integrally connected. Molded portion 314 may run through the surfaces of belly 312 (
U-shaped hole 316 may be cut in belly 312 to form tongue connecting portion 308 and fastening tongue 206. The cut may extend from one side of tongue connecting portion 308 and traverse around tongue 206, and end at the other side of tongue connection portion 308. In creating the cut, the dimensions of U-shaped hole 316 may be set at LO×WO, as shown in
Each of legs 208 and 210 may extend lengthwise relative to supporting spacer 108, from lower body 204's edge that is parallel to the widthwise direction of supporting spacer 108.
Thigh 322 may be attached, on one end, to lower body 204 in a direction perpendicular to the plane of supporting spacer 108 and in the same direction as fastening tongue 206. On the other end, thigh 322 may be attached perpendicularly to lower leg 324. In
Lower leg 324 may be attached substantially perpendicular to thigh 322, in the direction away from the center of and substantially in the plane of supporting spacer 108. In
Supporting spacer 108 may be placed flat against back panel 212 of electrical outlet box 106 (block 404). In placing supporting spacer 108 flat against back panel 212, while legs 208 and 210 are engaged in fastening holes 214-2 and 214-3, supporting spacer 108 may be rotated about lower body 204's edge that touches back panel 212, bringing fastening tongue 206 toward fastening hole 214-1 in back panel 212. The rotation may stop when supporting spacer 108 is flat against the top surface of back panel 212, and fastening tongue 206 protrudes beneath the bottom surface of back panel 212 (not shown).
Supporting spacer 108 may be bent at necks 302, causing upper body 202 of supporting spacer 108 to be raised perpendicular to lower body 204 (block 406). To bend supporting spacer 108 that is placed flat against the top surface of back panel 212, a force may be applied to lower body 204 to hold lower body 204 in place. As illustrated in
When upper body 202 is raised in the direction of arrow 502 and placed in a position 504 shown in dotted lines, fastening tongue 206 and tongue connecting portion 308 may move in the direction of arrow 506. Fastening tongue 206 and tongue connecting portion 308 may end in a position 508 shown in dotted lines.
In some implementations, because supporting spacer 108 is designed to be attached to electrical boxes with hands, edges of supporting spacer 108 may be rounded or smoothed to prevent supporting spacer 108 from accidentally cutting the hands. For example, the top corner edges of fins 304-1 and 304-2, fastening tongue 206, and legs 208 and 210 are illustrated in
As shown in
The foregoing description of implementations provides illustration, but is not intended to be exhaustive or to limit the implementations to the precise form disclosed. Modifications and variations are possible in light of the above teachings or may be acquired from practice of the teachings. For example, dimensions of the devices are provided for ease of understanding, but different implementations of supporting spacer 108 for different boxes may have different dimensions. Further, supporting spacer may be used not only for electrical boxes, but for other types of boxes that may be mounted on a wall.
In addition, while series of blocks have been described with regard to exemplary processes illustrated in
No element, act, or instruction used in the present application should be construed as critical or essential to the implementations described herein unless explicitly described as such. Also, as used herein, the article “a” is intended to include one or more items. Further, the phrase “based on” is intended to mean “based, at least in part, on” unless explicitly stated otherwise.
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Jul 22 2010 | Thomas & Betts International, Inc. | (assignment on the face of the patent) | / | |||
Mar 21 2013 | Thomas & Betts International, Inc | Thomas & Betts International LLC | CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 032388 | /0428 |
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